chapter 12: chemical bonding

... octet rule (rule of eight): atoms bond in a way that each atom has eight electrons (an octet) in its outer shell, except hydrogen which only needs 2 electrons – Atoms will bond to have the same # of valance electrons as the Noble gas in its period. GUIDELINES for Lewis Structures (or Electron Dot Di ...

Chapter X | Chapter Title

... The greater the electronegativity difference between the atoms, the more polar the diatomic molecule. Compounds made up of elements in the list that are far from each other (e.g., Si and O) have the largest dipole moment because they are the most polar. Molecules made up of elements closest together ...

Unit 3: Bonding and Nomenclature Content Outline: Chemical

... B. The theory states “ Repulsion between the sets of valence-level electrons surrounding an atom causes these sets to be oriented as far apart as possible. 1. “Shared pairs” of electrons are as far apart as possible. 2. “Lone pairs” (unshared) electrons occupy space around the central atom. a. Some ...

Chemical Bonding

Chemistry 111 Laboratory Experiment 3

... reading your lab book be able to ascertain what calculation parameters were used in calculating each of your results, but since these parameters are generally held constant throughout a given table, you can usually just specify what they were for an entire given table. ...

Basic chemistry - Ross University

... and [Mg2+ ] (3 mM), since these influence the activity of many enzymes. The values chosen simply reflect those that we find in living cells. If a parameter X is measured under chemical standard conditions, we write X 0 , if it was measured under biological standard conditions we write X 00 . In olde ...

Unit 1 Review, pages 138–145

... repeating pattern by strong electrostatic forces. (b) Ionic compounds are hard because their strong bonds resist being stretched. (c) An ionic compound breaks when struck with a hammer because its lattice structure is offset, and like charges repel each other. (d) Ionic compounds conduct electricity ...

Final Exam - Dawson College

... a. Draw the Lewis structure. Also give the name of the electron-pairs arrangement. b. Make a “3D”-sketch of the molecule with the bond angles and provide a name for the molecular structure (or shape of the molecule) Molecule ...

solution is a solution that contains the maximum amount of solute

Atomic orbitals, symmetry, and coordination polyhedra

... angular coordinates u and f, it is independent of direction (i.e., isotropic) and therefore remains unaltered by any symmetry operations. For this reason all of the symmetry properties of a spherical harmonic C, and thus of the corresponding wave function or atomic orbital, are contained in its angu ...

work book 1-3

... 29. Maximum of probability to find the electron around the nucleus of the atom 30. A region of space around the nucleus in which great probability to find the electron 31. The electron is a material particle which also has wave properties. 32. A type of waves associated to every moving body. 33. Sta ...

Condition - Future Website of mrbentley2

... # bonding pairs (groups) # lone pairs ...

Lab 2 VSEPR

... 2 blank. Three-dimensional figures will need to be drawn with perspective so they don’t look flat. c. Column 3: Now, take out any lone pairs (so that your model only has atoms and bonds). This shows the molecular geometry or shape around the central atom. Sketch this model in column 3. (There should ...

Review for Final Exam - Short Answer and Problems

... Limestone is composed of calcium carbonate (CaCO3) as well as other compounds. In an analysis, a chemist takes a sample of limestone which has a mass of 413 mg and treats it with oxalic acid (H2C2O4). A chemical reaction occurs between the calcium carbonate and the acid producing calcium oxalate and ...

... Three-, two- and one-dimensional carbon materials: diamond (a) and graphite (b) crystal lattices, and polyacetylene chain (c). An alternative way of writing polyacetylene is also shown (d). Diamond, which contains only σ bonds, is an insulator and its high symmetry gives it isotropic properties. Gra ...

Unit Five Practice Test (Part I)

... _________41. Why is the radius of a positive ion always less than the radius of its neutral atom? (A) The nucleus pulls the remaining electrons in closer. (B) The number of principal energy levels is always reduced. (C) The atomic orbitals contract all by themselves. (D) Electron speeds are reduced. ...

Dec. 15 , 2012, 9:00 am – noon - Dr. K. Brown

... B4. (10 marks) Fill in the blanks in this table. The central atom for each species has been underlined. If there are resonance structures, just show one of them. 1 mark for each blank. ...

Chapter 08

Fall 2013 Final practice questions w/o solution

... 8. Which statement best explains why the electron affinity of B is less positive than that of Li? A) B has electrons in p orbitals, so it is lower in energy. B) Li does not want to gain an electron because it already has a half-full s orbital. C) B is a smaller atom, so its valence electrons are mo ...

Chapter 2 Expanded Notes

... they retain this identity through chemical reactions. Atoms of one element are different from atoms of another element. However, all atoms of the same element have some identifying mark in common. Also note that of all the subatomic particles, only the proton did not change. All atoms have the same ...

Bonding Notes

... 3. Polar covalent bond- In this covalent bond the electrons that the two nonmetals atoms are sharing unequally. The reason that they are sharing electrons unequally is that the two atoms have different electronegativities. -A covalent bond is a bond between two nonmetals. If those two nonmetals are ...

Chemistry 11 Exam 1 Spring 2006 When answering questions be

... 15. Show, by drawing Lewis structures, how the nitrite ion (NO2-) possesses two resonance forms. (18 electrons total). OA-N=OB]-1 <---> OA=N-OB]-1 3 lone pairs 2 lone pairs OA: N: 1 lone pair 1 lone pair OB: 2 lone pairs 3 lone pairs 16. Use VSEPR Theory to determine the geometric structure (name an ...

Valence Shell Electron Pair Repulsion

... The goal is to distribute the electrons equally. Electrons want to be as far apart as possible (they repulse each other) ...

Chapter3 Solutions

... 4. This statement is true, because in general, the farther away elements are from one another, the greater is the difference in their electronegativity, and the more likely they are to form ionic bonds. Students should note that noble gases are an exception, since they do not participate in ionic bo ...

Deformations from Octahedral Geometry in d4 Transition

< 1 ... 12 13 14 15 16 17 18 19 20 ... 53 >

Bent's rule

Bent's rule describes and explains the relationship between the isovalent hybridization of central atoms in molecules and the electronegativities of substituents. The rule was stated by Henry Bent as follows: ""Atomic s character concentrates in orbitals directed toward electropositive substituents"".The chemical structure of a molecule is intimately related to its properties and reactivity. Valence bond theory proposes that molecular structures are due to covalent bonds between the atoms and that each bond consists of two overlapping and typically hybridised atomic orbitals. Traditionally, p-block elements in molecules are assumed to hybridise strictly as spn, where n is either 1, 2, or 3. In addition, the hybrid orbitals are all assumed to be equivalent (i.e. the n+1 spn orbitals have the same p character). Results from this approach are usually good, but they can be improved upon by allowing hybridised orbitals with noninteger and unequal p character. Bent's rule provides a qualitative estimate as to how these hybridised orbitals should be constructed. Bent's rule is that in a molecule, a central atom bonded to multiple groups will hybridise so that orbitals with more s character are directed towards electropositive groups, while orbitals with more p character will be directed towards groups that are more electronegative. By removing the assumption that all hybrid orbitals are equivalent spn orbitals, better predictions and explanations of properties such as molecular geometry and bond strength can be obtained.Bent's rule can be generalized to d-block elements as well. The hybridisation of a metal center is arranged so that orbitals with more s character are directed towards ligands that form bonds with more covalent character. Equivalently, orbitals with more d character are directed towards groups that form bonds of greater ionic character.

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Bent's rule